/* * Copyright (c)2019 ZeroTier, Inc. * * Use of this software is governed by the Business Source License included * in the LICENSE.TXT file in the project's root directory. * * Change Date: 2026-01-01 * * On the date above, in accordance with the Business Source License, use * of this software will be governed by version 2.0 of the Apache License. */ /****/ #include "PostgreSQL.hpp" #ifdef ZT_CONTROLLER_USE_LIBPQ #include "../node/Constants.hpp" #include "../node/SHA512.hpp" #include "EmbeddedNetworkController.hpp" #include "../version.h" #include "Redis.hpp" #include #include #include #include #include #include // #define REDIS_TRACE 1 using json = nlohmann::json; namespace { static const int DB_MINIMUM_VERSION = 38; static const char *_timestr() { time_t t = time(0); char *ts = ctime(&t); char *p = ts; if (!p) return ""; while (*p) { if (*p == '\n') { *p = (char)0; break; } ++p; } return ts; } /* std::string join(const std::vector &elements, const char * const separator) { switch(elements.size()) { case 0: return ""; case 1: return elements[0]; default: std::ostringstream os; std::copy(elements.begin(), elements.end()-1, std::ostream_iterator(os, separator)); os << *elements.rbegin(); return os.str(); } } */ std::vector split(std::string str, char delim){ std::istringstream iss(str); std::vector tokens; std::string item; while(std::getline(iss, item, delim)) { tokens.push_back(item); } return tokens; } std::string url_encode(const std::string &value) { std::ostringstream escaped; escaped.fill('0'); escaped << std::hex; for (std::string::const_iterator i = value.begin(), n = value.end(); i != n; ++i) { std::string::value_type c = (*i); // Keep alphanumeric and other accepted characters intact if (isalnum(c) || c == '-' || c == '_' || c == '.' || c == '~') { escaped << c; continue; } // Any other characters are percent-encoded escaped << std::uppercase; escaped << '%' << std::setw(2) << int((unsigned char) c); escaped << std::nouppercase; } return escaped.str(); } } // anonymous namespace using namespace ZeroTier; MemberNotificationReceiver::MemberNotificationReceiver(PostgreSQL *p, pqxx::connection &c, const std::string &channel) : pqxx::notification_receiver(c, channel) , _psql(p) { fprintf(stderr, "initialize MemberNotificationReceiver\n"); } void MemberNotificationReceiver::operator() (const std::string &payload, int packend_pid) { fprintf(stderr, "Member Notification received: %s\n", payload.c_str()); Metrics::pgsql_mem_notification++; json tmp(json::parse(payload)); json &ov = tmp["old_val"]; json &nv = tmp["new_val"]; json oldConfig, newConfig; if (ov.is_object()) oldConfig = ov; if (nv.is_object()) newConfig = nv; if (oldConfig.is_object() || newConfig.is_object()) { _psql->_memberChanged(oldConfig,newConfig,(_psql->_ready>=2)); fprintf(stderr, "payload sent\n"); } } NetworkNotificationReceiver::NetworkNotificationReceiver(PostgreSQL *p, pqxx::connection &c, const std::string &channel) : pqxx::notification_receiver(c, channel) , _psql(p) { fprintf(stderr, "initialize NetworkNotificationReceiver\n"); } void NetworkNotificationReceiver::operator() (const std::string &payload, int packend_pid) { fprintf(stderr, "Network Notification received: %s\n", payload.c_str()); Metrics::pgsql_net_notification++; json tmp(json::parse(payload)); json &ov = tmp["old_val"]; json &nv = tmp["new_val"]; json oldConfig, newConfig; if (ov.is_object()) oldConfig = ov; if (nv.is_object()) newConfig = nv; if (oldConfig.is_object() || newConfig.is_object()) { _psql->_networkChanged(oldConfig,newConfig,(_psql->_ready>=2)); fprintf(stderr, "payload sent\n"); } } using Attrs = std::vector>; using Item = std::pair; using ItemStream = std::vector; PostgreSQL::PostgreSQL(const Identity &myId, const char *path, int listenPort, RedisConfig *rc) : DB() , _pool() , _myId(myId) , _myAddress(myId.address()) , _ready(0) , _connected(1) , _run(1) , _waitNoticePrinted(false) , _listenPort(listenPort) , _rc(rc) , _redis(NULL) , _cluster(NULL) , _redisMemberStatus(false) , _smee(NULL) { char myAddress[64]; _myAddressStr = myId.address().toString(myAddress); _connString = std::string(path); auto f = std::make_shared(_connString); _pool = std::make_shared >( 15, 5, std::static_pointer_cast(f)); memset(_ssoPsk, 0, sizeof(_ssoPsk)); char *const ssoPskHex = getenv("ZT_SSO_PSK"); #ifdef ZT_TRACE fprintf(stderr, "ZT_SSO_PSK: %s\n", ssoPskHex); #endif if (ssoPskHex) { // SECURITY: note that ssoPskHex will always be null-terminated if libc actually // returns something non-NULL. If the hex encodes something shorter than 48 bytes, // it will be padded at the end with zeroes. If longer, it'll be truncated. Utils::unhex(ssoPskHex, _ssoPsk, sizeof(_ssoPsk)); } const char *redisMemberStatus = getenv("ZT_REDIS_MEMBER_STATUS"); if (redisMemberStatus && (strcmp(redisMemberStatus, "true") == 0)) { _redisMemberStatus = true; fprintf(stderr, "Using redis for member status\n"); } auto c = _pool->borrow(); pqxx::work txn{*c->c}; pqxx::row r{txn.exec1("SELECT version FROM ztc_database")}; int dbVersion = r[0].as(); txn.commit(); if (dbVersion < DB_MINIMUM_VERSION) { fprintf(stderr, "Central database schema version too low. This controller version requires a minimum schema version of %d. Please upgrade your Central instance", DB_MINIMUM_VERSION); exit(1); } _pool->unborrow(c); if (_rc != NULL) { sw::redis::ConnectionOptions opts; sw::redis::ConnectionPoolOptions poolOpts; opts.host = _rc->hostname; opts.port = _rc->port; opts.password = _rc->password; opts.db = 0; opts.keep_alive = true; opts.connect_timeout = std::chrono::seconds(3); poolOpts.size = 25; poolOpts.wait_timeout = std::chrono::seconds(5); poolOpts.connection_lifetime = std::chrono::minutes(3); poolOpts.connection_idle_time = std::chrono::minutes(1); if (_rc->clusterMode) { fprintf(stderr, "Using Redis in Cluster Mode\n"); _cluster = std::make_shared(opts, poolOpts); } else { fprintf(stderr, "Using Redis in Standalone Mode\n"); _redis = std::make_shared(opts, poolOpts); } } _readyLock.lock(); fprintf(stderr, "[%s] NOTICE: %.10llx controller PostgreSQL waiting for initial data download..." ZT_EOL_S, ::_timestr(), (unsigned long long)_myAddress.toInt()); _waitNoticePrinted = true; initializeNetworks(); initializeMembers(); _heartbeatThread = std::thread(&PostgreSQL::heartbeat, this); _membersDbWatcher = std::thread(&PostgreSQL::membersDbWatcher, this); _networksDbWatcher = std::thread(&PostgreSQL::networksDbWatcher, this); for (int i = 0; i < ZT_CENTRAL_CONTROLLER_COMMIT_THREADS; ++i) { _commitThread[i] = std::thread(&PostgreSQL::commitThread, this); } _onlineNotificationThread = std::thread(&PostgreSQL::onlineNotificationThread, this); configureSmee(); } PostgreSQL::~PostgreSQL() { if (_smee != NULL) { smeeclient::smee_client_delete(_smee); _smee = NULL; } _run = 0; std::this_thread::sleep_for(std::chrono::milliseconds(100)); _heartbeatThread.join(); _membersDbWatcher.join(); _networksDbWatcher.join(); _commitQueue.stop(); for (int i = 0; i < ZT_CENTRAL_CONTROLLER_COMMIT_THREADS; ++i) { _commitThread[i].join(); } _onlineNotificationThread.join(); } void PostgreSQL::configureSmee() { const char *TEMPORAL_SCHEME = "ZT_TEMPORAL_SCHEME"; const char *TEMPORAL_HOST = "ZT_TEMPORAL_HOST"; const char *TEMPORAL_PORT = "ZT_TEMPORAL_PORT"; const char *TEMPORAL_NAMESPACE = "ZT_TEMPORAL_NAMESPACE"; const char *SMEE_TASK_QUEUE = "ZT_SMEE_TASK_QUEUE"; const char *scheme = getenv(TEMPORAL_SCHEME); if (scheme == NULL) { scheme = "http"; } const char *host = getenv(TEMPORAL_HOST); const char *port = getenv(TEMPORAL_PORT); const char *ns = getenv(TEMPORAL_NAMESPACE); const char *task_queue = getenv(SMEE_TASK_QUEUE); if (scheme != NULL && host != NULL && port != NULL && ns != NULL && task_queue != NULL) { fprintf(stderr, "creating smee client\n"); std::string hostPort = std::string(scheme) + std::string("://") + std::string(host) + std::string(":") + std::string(port); this->_smee = smeeclient::smee_client_new(hostPort.c_str(), ns, task_queue); } else { fprintf(stderr, "Smee client not configured\n"); } } bool PostgreSQL::waitForReady() { while (_ready < 2) { _readyLock.lock(); _readyLock.unlock(); } return true; } bool PostgreSQL::isReady() { return ((_ready == 2)&&(_connected)); } bool PostgreSQL::save(nlohmann::json &record,bool notifyListeners) { bool modified = false; try { if (!record.is_object()) { fprintf(stderr, "record is not an object?!?\n"); return false; } const std::string objtype = record["objtype"]; if (objtype == "network") { //fprintf(stderr, "network save\n"); const uint64_t nwid = OSUtils::jsonIntHex(record["id"],0ULL); if (nwid) { nlohmann::json old; get(nwid,old); if ((!old.is_object())||(!_compareRecords(old,record))) { record["revision"] = OSUtils::jsonInt(record["revision"],0ULL) + 1ULL; _commitQueue.post(std::pair(record,notifyListeners)); modified = true; } } } else if (objtype == "member") { std::string networkId = record["nwid"]; std::string memberId = record["id"]; const uint64_t nwid = OSUtils::jsonIntHex(record["nwid"],0ULL); const uint64_t id = OSUtils::jsonIntHex(record["id"],0ULL); //fprintf(stderr, "member save %s-%s\n", networkId.c_str(), memberId.c_str()); if ((id)&&(nwid)) { nlohmann::json network,old; get(nwid,network,id,old); if ((!old.is_object())||(!_compareRecords(old,record))) { //fprintf(stderr, "commit queue post\n"); record["revision"] = OSUtils::jsonInt(record["revision"],0ULL) + 1ULL; _commitQueue.post(std::pair(record,notifyListeners)); modified = true; } else { //fprintf(stderr, "no change\n"); } } } else { fprintf(stderr, "uhh waaat\n"); } } catch (std::exception &e) { fprintf(stderr, "Error on PostgreSQL::save: %s\n", e.what()); } catch (...) { fprintf(stderr, "Unknown error on PostgreSQL::save\n"); } return modified; } void PostgreSQL::eraseNetwork(const uint64_t networkId) { fprintf(stderr, "PostgreSQL::eraseNetwork\n"); char tmp2[24]; waitForReady(); Utils::hex(networkId, tmp2); std::pair tmp; tmp.first["id"] = tmp2; tmp.first["objtype"] = "_delete_network"; tmp.second = true; _commitQueue.post(tmp); nlohmann::json nullJson; _networkChanged(tmp.first, nullJson, true); } void PostgreSQL::eraseMember(const uint64_t networkId, const uint64_t memberId) { fprintf(stderr, "PostgreSQL::eraseMember\n"); char tmp2[24]; waitForReady(); std::pair tmp, nw; Utils::hex(networkId, tmp2); tmp.first["nwid"] = tmp2; Utils::hex(memberId, tmp2); tmp.first["id"] = tmp2; tmp.first["objtype"] = "_delete_member"; tmp.second = true; _commitQueue.post(tmp); nlohmann::json nullJson; _memberChanged(tmp.first, nullJson, true); } void PostgreSQL::nodeIsOnline(const uint64_t networkId, const uint64_t memberId, const InetAddress &physicalAddress) { std::lock_guard l(_lastOnline_l); std::pair &i = _lastOnline[std::pair(networkId, memberId)]; i.first = OSUtils::now(); if (physicalAddress) { i.second = physicalAddress; } } AuthInfo PostgreSQL::getSSOAuthInfo(const nlohmann::json &member, const std::string &redirectURL) { Metrics::db_get_sso_info++; // NONCE is just a random character string. no semantic meaning // state = HMAC SHA384 of Nonce based on shared sso key // // need nonce timeout in database? make sure it's used within X time // X is 5 minutes for now. Make configurable later? // // how do we tell when a nonce is used? if auth_expiration_time is set std::string networkId = member["nwid"]; std::string memberId = member["id"]; char authenticationURL[4096] = {0}; AuthInfo info; info.enabled = true; //if (memberId == "a10dccea52" && networkId == "8056c2e21c24673d") { // fprintf(stderr, "invalid authinfo for grant's machine\n"); // info.version=1; // return info; //} // fprintf(stderr, "PostgreSQL::updateMemberOnLoad: %s-%s\n", networkId.c_str(), memberId.c_str()); std::shared_ptr c; try { c = _pool->borrow(); pqxx::work w(*c->c); char nonceBytes[16] = {0}; std::string nonce = ""; // check if the member exists first. pqxx::row count = w.exec_params1("SELECT count(id) FROM ztc_member WHERE id = $1 AND network_id = $2 AND deleted = false", memberId, networkId); if (count[0].as() == 1) { // get active nonce, if exists. pqxx::result r = w.exec_params("SELECT nonce FROM ztc_sso_expiry " "WHERE network_id = $1 AND member_id = $2 " "AND ((NOW() AT TIME ZONE 'UTC') <= authentication_expiry_time) AND ((NOW() AT TIME ZONE 'UTC') <= nonce_expiration)", networkId, memberId); if (r.size() == 0) { // no active nonce. // find an unused nonce, if one exists. pqxx::result r = w.exec_params("SELECT nonce FROM ztc_sso_expiry " "WHERE network_id = $1 AND member_id = $2 " "AND authentication_expiry_time IS NULL AND ((NOW() AT TIME ZONE 'UTC') <= nonce_expiration)", networkId, memberId); if (r.size() == 1) { // we have an existing nonce. Use it nonce = r.at(0)[0].as(); Utils::unhex(nonce.c_str(), nonceBytes, sizeof(nonceBytes)); } else if (r.empty()) { // create a nonce Utils::getSecureRandom(nonceBytes, 16); char nonceBuf[64] = {0}; Utils::hex(nonceBytes, sizeof(nonceBytes), nonceBuf); nonce = std::string(nonceBuf); pqxx::result ir = w.exec_params0("INSERT INTO ztc_sso_expiry " "(nonce, nonce_expiration, network_id, member_id) VALUES " "($1, TO_TIMESTAMP($2::double precision/1000), $3, $4)", nonce, OSUtils::now() + 300000, networkId, memberId); w.commit(); } else { // > 1 ?!? Thats an error! fprintf(stderr, "> 1 unused nonce!\n"); exit(6); } } else if (r.size() == 1) { nonce = r.at(0)[0].as(); Utils::unhex(nonce.c_str(), nonceBytes, sizeof(nonceBytes)); } else { // more than 1 nonce in use? Uhhh... fprintf(stderr, "> 1 nonce in use for network member?!?\n"); exit(7); } r = w.exec_params( "SELECT oc.client_id, oc.authorization_endpoint, oc.issuer, oc.provider, oc.sso_impl_version " "FROM ztc_network AS n " "INNER JOIN ztc_org o " " ON o.owner_id = n.owner_id " "LEFT OUTER JOIN ztc_network_oidc_config noc " " ON noc.network_id = n.id " "LEFT OUTER JOIN ztc_oidc_config oc " " ON noc.client_id = oc.client_id AND oc.org_id = o.org_id " "WHERE n.id = $1 AND n.sso_enabled = true", networkId); std::string client_id = ""; std::string authorization_endpoint = ""; std::string issuer = ""; std::string provider = ""; uint64_t sso_version = 0; if (r.size() == 1) { client_id = r.at(0)[0].as>().value_or(""); authorization_endpoint = r.at(0)[1].as>().value_or(""); issuer = r.at(0)[2].as>().value_or(""); provider = r.at(0)[3].as>().value_or(""); sso_version = r.at(0)[4].as>().value_or(1); } else if (r.size() > 1) { fprintf(stderr, "ERROR: More than one auth endpoint for an organization?!?!? NetworkID: %s\n", networkId.c_str()); } else { fprintf(stderr, "No client or auth endpoint?!?\n"); } info.version = sso_version; // no catch all else because we don't actually care if no records exist here. just continue as normal. if ((!client_id.empty())&&(!authorization_endpoint.empty())) { uint8_t state[48]; HMACSHA384(_ssoPsk, nonceBytes, sizeof(nonceBytes), state); char state_hex[256]; Utils::hex(state, 48, state_hex); if (info.version == 0) { char url[2048] = {0}; OSUtils::ztsnprintf(url, sizeof(authenticationURL), "%s?response_type=id_token&response_mode=form_post&scope=openid+email+profile&redirect_uri=%s&nonce=%s&state=%s&client_id=%s", authorization_endpoint.c_str(), url_encode(redirectURL).c_str(), nonce.c_str(), state_hex, client_id.c_str()); info.authenticationURL = std::string(url); } else if (info.version == 1) { info.ssoClientID = client_id; info.issuerURL = issuer; info.ssoProvider = provider; info.ssoNonce = nonce; info.ssoState = std::string(state_hex) + "_" +networkId; info.centralAuthURL = redirectURL; #ifdef ZT_DEBUG fprintf( stderr, "ssoClientID: %s\nissuerURL: %s\nssoNonce: %s\nssoState: %s\ncentralAuthURL: %s\nprovider: %s\n", info.ssoClientID.c_str(), info.issuerURL.c_str(), info.ssoNonce.c_str(), info.ssoState.c_str(), info.centralAuthURL.c_str(), provider.c_str()); #endif } } else { fprintf(stderr, "client_id: %s\nauthorization_endpoint: %s\n", client_id.c_str(), authorization_endpoint.c_str()); } } _pool->unborrow(c); } catch (std::exception &e) { fprintf(stderr, "ERROR: Error updating member on load for network %s: %s\n", networkId.c_str(), e.what()); } return info; //std::string(authenticationURL); } void PostgreSQL::initializeNetworks() { try { std::string setKey = "networks:{" + _myAddressStr + "}"; fprintf(stderr, "Initializing Networks...\n"); if (_redisMemberStatus) { fprintf(stderr, "Init Redis for networks...\n"); try { if (_rc->clusterMode) { _cluster->del(setKey); } else { _redis->del(setKey); } } catch (sw::redis::Error &e) { // ignore. if this key doesn't exist, there's no reason to delete it } } std::unordered_set networkSet; char qbuf[2048] = {0}; sprintf(qbuf, "SELECT n.id, (EXTRACT(EPOCH FROM n.creation_time AT TIME ZONE 'UTC')*1000)::bigint as creation_time, n.capabilities, " "n.enable_broadcast, (EXTRACT(EPOCH FROM n.last_modified AT TIME ZONE 'UTC')*1000)::bigint AS last_modified, n.mtu, n.multicast_limit, n.name, n.private, n.remote_trace_level, " "n.remote_trace_target, n.revision, n.rules, n.tags, n.v4_assign_mode, n.v6_assign_mode, n.sso_enabled, (CASE WHEN n.sso_enabled THEN noc.client_id ELSE NULL END) as client_id, " "(CASE WHEN n.sso_enabled THEN oc.authorization_endpoint ELSE NULL END) as authorization_endpoint, " "(CASE WHEN n.sso_enabled THEN oc.provider ELSE NULL END) as provider, d.domain, d.servers, " "ARRAY(SELECT CONCAT(host(ip_range_start),'|', host(ip_range_end)) FROM ztc_network_assignment_pool WHERE network_id = n.id) AS assignment_pool, " "ARRAY(SELECT CONCAT(host(address),'/',bits::text,'|',COALESCE(host(via), 'NULL'))FROM ztc_network_route WHERE network_id = n.id) AS routes " "FROM ztc_network n " "LEFT OUTER JOIN ztc_org o " " ON o.owner_id = n.owner_id " "LEFT OUTER JOIN ztc_network_oidc_config noc " " ON noc.network_id = n.id " "LEFT OUTER JOIN ztc_oidc_config oc " " ON noc.client_id = oc.client_id AND oc.org_id = o.org_id " "LEFT OUTER JOIN ztc_network_dns d " " ON d.network_id = n.id " "WHERE deleted = false AND controller_id = '%s'", _myAddressStr.c_str()); auto c = _pool->borrow(); auto c2 = _pool->borrow(); pqxx::work w{*c->c}; fprintf(stderr, "Load networks from psql...\n"); auto stream = pqxx::stream_from::query(w, qbuf); std::tuple< std::string // network ID , std::optional // creationTime , std::optional // capabilities , std::optional // enableBroadcast , std::optional // lastModified , std::optional // mtu , std::optional // multicastLimit , std::optional // name , bool // private , std::optional // remoteTraceLevel , std::optional // remoteTraceTarget , std::optional // revision , std::optional // rules , std::optional // tags , std::optional // v4AssignMode , std::optional // v6AssignMode , std::optional // ssoEnabled , std::optional // clientId , std::optional // authorizationEndpoint , std::optional // ssoProvider , std::optional // domain , std::optional // servers , std::string // assignmentPoolString , std::string // routeString > row; uint64_t count = 0; auto tmp = std::chrono::high_resolution_clock::now(); uint64_t total = 0; while (stream >> row) { auto start = std::chrono::high_resolution_clock::now(); json empty; json config; initNetwork(config); std::string nwid = std::get<0>(row); std::optional creationTime = std::get<1>(row); std::optional capabilities = std::get<2>(row); std::optional enableBroadcast = std::get<3>(row); std::optional lastModified = std::get<4>(row); std::optional mtu = std::get<5>(row); std::optional multicastLimit = std::get<6>(row); std::optional name = std::get<7>(row); bool isPrivate = std::get<8>(row); std::optional remoteTraceLevel = std::get<9>(row); std::optional remoteTraceTarget = std::get<10>(row); std::optional revision = std::get<11>(row); std::optional rules = std::get<12>(row); std::optional tags = std::get<13>(row); std::optional v4AssignMode = std::get<14>(row); std::optional v6AssignMode = std::get<15>(row); std::optional ssoEnabled = std::get<16>(row); std::optional clientId = std::get<17>(row); std::optional authorizationEndpoint = std::get<18>(row); std::optional ssoProvider = std::get<19>(row); std::optional dnsDomain = std::get<20>(row); std::optional dnsServers = std::get<21>(row); std::string assignmentPoolString = std::get<22>(row); std::string routesString = std::get<23>(row); config["id"] = nwid; config["nwid"] = nwid; config["creationTime"] = creationTime.value_or(0); config["capabilities"] = json::parse(capabilities.value_or("[]")); config["enableBroadcast"] = enableBroadcast.value_or(false); config["lastModified"] = lastModified.value_or(0); config["mtu"] = mtu.value_or(2800); config["multicastLimit"] = multicastLimit.value_or(64); config["name"] = name.value_or(""); config["private"] = isPrivate; config["remoteTraceLevel"] = remoteTraceLevel.value_or(0); config["remoteTraceTarget"] = remoteTraceTarget.value_or(""); config["revision"] = revision.value_or(0); config["rules"] = json::parse(rules.value_or("[]")); config["tags"] = json::parse(tags.value_or("[]")); config["v4AssignMode"] = json::parse(v4AssignMode.value_or("{}")); config["v6AssignMode"] = json::parse(v6AssignMode.value_or("{}")); config["ssoEnabled"] = ssoEnabled.value_or(false); config["objtype"] = "network"; config["ipAssignmentPools"] = json::array(); config["routes"] = json::array(); config["clientId"] = clientId.value_or(""); config["authorizationEndpoint"] = authorizationEndpoint.value_or(""); config["provider"] = ssoProvider.value_or(""); networkSet.insert(nwid); if (dnsDomain.has_value()) { std::string serverList = dnsServers.value(); json obj; auto servers = json::array(); if (serverList.rfind("{",0) != std::string::npos) { serverList = serverList.substr(1, serverList.size()-2); std::stringstream ss(serverList); while(ss.good()) { std::string server; std::getline(ss, server, ','); servers.push_back(server); } } obj["domain"] = dnsDomain.value(); obj["servers"] = servers; config["dns"] = obj; } config["ipAssignmentPools"] = json::array(); if (assignmentPoolString != "{}") { std::string tmp = assignmentPoolString.substr(1, assignmentPoolString.size()-2); std::vector assignmentPools = split(tmp, ','); for (auto it = assignmentPools.begin(); it != assignmentPools.end(); ++it) { std::vector r = split(*it, '|'); json ip; ip["ipRangeStart"] = r[0]; ip["ipRangeEnd"] = r[1]; config["ipAssignmentPools"].push_back(ip); } } config["routes"] = json::array(); if (routesString != "{}") { std::string tmp = routesString.substr(1, routesString.size()-2); std::vector routes = split(tmp, ','); for (auto it = routes.begin(); it != routes.end(); ++it) { std::vector r = split(*it, '|'); json route; route["target"] = r[0]; route["via"] = ((route["via"] == "NULL")? nullptr : r[1]); config["routes"].push_back(route); } } Metrics::network_count++; _networkChanged(empty, config, false); auto end = std::chrono::high_resolution_clock::now(); auto dur = std::chrono::duration_cast(end - start);; total += dur.count(); ++count; if (count > 0 && count % 10000 == 0) { fprintf(stderr, "Averaging %llu us per network\n", (total/count)); } } if (count > 0) { fprintf(stderr, "Took %llu us per network to load\n", (total/count)); } stream.complete(); w.commit(); _pool->unborrow(c2); _pool->unborrow(c); fprintf(stderr, "done.\n"); if (!networkSet.empty()) { if (_redisMemberStatus) { fprintf(stderr, "adding networks to redis...\n"); if (_rc->clusterMode) { auto tx = _cluster->transaction(_myAddressStr, true, false); uint64_t count = 0; for (std::string nwid : networkSet) { tx.sadd(setKey, nwid); if (++count % 30000 == 0) { tx.exec(); tx = _cluster->transaction(_myAddressStr, true, false); } } tx.exec(); } else { auto tx = _redis->transaction(true, false); uint64_t count = 0; for (std::string nwid : networkSet) { tx.sadd(setKey, nwid); if (++count % 30000 == 0) { tx.exec(); tx = _redis->transaction(true, false); } } tx.exec(); } fprintf(stderr, "done.\n"); } } if (++this->_ready == 2) { if (_waitNoticePrinted) { fprintf(stderr,"[%s] NOTICE: %.10llx controller PostgreSQL data download complete." ZT_EOL_S,_timestr(),(unsigned long long)_myAddress.toInt()); } _readyLock.unlock(); } fprintf(stderr, "network init done.\n"); } catch (sw::redis::Error &e) { fprintf(stderr, "ERROR: Error initializing networks in Redis: %s\n", e.what()); std::this_thread::sleep_for(std::chrono::milliseconds(5000)); exit(-1); } catch (std::exception &e) { fprintf(stderr, "ERROR: Error initializing networks: %s\n", e.what()); std::this_thread::sleep_for(std::chrono::milliseconds(5000)); exit(-1); } } void PostgreSQL::initializeMembers() { std::string memberId; std::string networkId; try { std::unordered_map networkMembers; fprintf(stderr, "Initializing Members...\n"); std::string setKeyBase = "network-nodes-all:{" + _myAddressStr + "}:"; if (_redisMemberStatus) { fprintf(stderr, "Initialize Redis for members...\n"); std::unique_lock l(_networks_l); std::unordered_set deletes; for ( auto it : _networks) { uint64_t nwid_i = it.first; char nwidTmp[64] = {0}; OSUtils::ztsnprintf(nwidTmp, sizeof(nwidTmp), "%.16llx", nwid_i); std::string nwid(nwidTmp); std::string key = setKeyBase + nwid; deletes.insert(key); } if (!deletes.empty()) { try { if (_rc->clusterMode) { auto tx = _cluster->transaction(_myAddressStr, true, false); for (std::string k : deletes) { tx.del(k); } tx.exec(); } else { auto tx = _redis->transaction(true, false); for (std::string k : deletes) { tx.del(k); } tx.exec(); } } catch (sw::redis::Error &e) { // ignore } } } char qbuf[2048]; sprintf(qbuf, "SELECT m.id, m.network_id, m.active_bridge, m.authorized, m.capabilities, " "(EXTRACT(EPOCH FROM m.creation_time AT TIME ZONE 'UTC')*1000)::bigint, m.identity, " "(EXTRACT(EPOCH FROM m.last_authorized_time AT TIME ZONE 'UTC')*1000)::bigint, " "(EXTRACT(EPOCH FROM m.last_deauthorized_time AT TIME ZONE 'UTC')*1000)::bigint, " "m.remote_trace_level, m.remote_trace_target, m.tags, m.v_major, m.v_minor, m.v_rev, m.v_proto, " "m.no_auto_assign_ips, m.revision, m.sso_exempt, " "(CASE WHEN n.sso_enabled = TRUE AND m.sso_exempt = FALSE THEN " " ( " " SELECT (EXTRACT(EPOCH FROM e.authentication_expiry_time)*1000)::bigint " " FROM ztc_sso_expiry e " " INNER JOIN ztc_network n1 " " ON n1.id = e.network_id AND n1.deleted = TRUE " " WHERE e.network_id = m.network_id AND e.member_id = m.id AND n.sso_enabled = TRUE AND e.authentication_expiry_time IS NOT NULL " " ORDER BY e.authentication_expiry_time DESC LIMIT 1 " " ) " " ELSE NULL " " END) AS authentication_expiry_time, " "ARRAY(SELECT DISTINCT address FROM ztc_member_ip_assignment WHERE member_id = m.id AND network_id = m.network_id) AS assigned_addresses " "FROM ztc_member m " "INNER JOIN ztc_network n " " ON n.id = m.network_id " "WHERE n.controller_id = '%s' AND n.deleted = FALSE AND m.deleted = FALSE", _myAddressStr.c_str()); auto c = _pool->borrow(); auto c2 = _pool->borrow(); pqxx::work w{*c->c}; fprintf(stderr, "Load members from psql...\n"); auto stream = pqxx::stream_from::query(w, qbuf); std::tuple< std::string // memberId , std::string // memberId , std::optional // activeBridge , std::optional // authorized , std::optional // capabilities , std::optional // creationTime , std::optional // identity , std::optional // lastAuthorizedTime , std::optional // lastDeauthorizedTime , std::optional // remoteTraceLevel , std::optional // remoteTraceTarget , std::optional // tags , std::optional // vMajor , std::optional // vMinor , std::optional // vRev , std::optional // vProto , std::optional // noAutoAssignIps , std::optional // revision , std::optional // ssoExempt , std::optional // authenticationExpiryTime , std::string // assignedAddresses > row; uint64_t count = 0; auto tmp = std::chrono::high_resolution_clock::now(); uint64_t total = 0; while (stream >> row) { auto start = std::chrono::high_resolution_clock::now(); json empty; json config; initMember(config); memberId = std::get<0>(row); networkId = std::get<1>(row); std::optional activeBridge = std::get<2>(row); std::optional authorized = std::get<3>(row); std::optional capabilities = std::get<4>(row); std::optional creationTime = std::get<5>(row); std::optional identity = std::get<6>(row); std::optional lastAuthorizedTime = std::get<7>(row); std::optional lastDeauthorizedTime = std::get<8>(row); std::optional remoteTraceLevel = std::get<9>(row); std::optional remoteTraceTarget = std::get<10>(row); std::optional tags = std::get<11>(row); std::optional vMajor = std::get<12>(row); std::optional vMinor = std::get<13>(row); std::optional vRev = std::get<14>(row); std::optional vProto = std::get<15>(row); std::optional noAutoAssignIps = std::get<16>(row); std::optional revision = std::get<17>(row); std::optional ssoExempt = std::get<18>(row); std::optional authenticationExpiryTime = std::get<19>(row); std::string assignedAddresses = std::get<20>(row); networkMembers.insert(std::pair(setKeyBase+networkId, memberId)); config["id"] = memberId; config["address"] = memberId; config["nwid"] = networkId; config["activeBridge"] = activeBridge.value_or(false); config["authorized"] = authorized.value_or(false); config["capabilities"] = json::parse(capabilities.value_or("[]")); config["creationTime"] = creationTime.value_or(0); config["identity"] = identity.value_or(""); config["lastAuthorizedTime"] = lastAuthorizedTime.value_or(0); config["lastDeauthorizedTime"] = lastDeauthorizedTime.value_or(0); config["remoteTraceLevel"] = remoteTraceLevel.value_or(0); config["remoteTraceTarget"] = remoteTraceTarget.value_or(""); config["tags"] = json::parse(tags.value_or("[]")); config["vMajor"] = vMajor.value_or(-1); config["vMinor"] = vMinor.value_or(-1); config["vRev"] = vRev.value_or(-1); config["vProto"] = vProto.value_or(-1); config["noAutoAssignIps"] = noAutoAssignIps.value_or(false); config["revision"] = revision.value_or(0); config["ssoExempt"] = ssoExempt.value_or(false); config["authenticationExpiryTime"] = authenticationExpiryTime.value_or(0); config["objtype"] = "member"; config["ipAssignments"] = json::array(); if (assignedAddresses != "{}") { std::string tmp = assignedAddresses.substr(1, assignedAddresses.size()-2); std::vector addrs = split(tmp, ','); for (auto it = addrs.begin(); it != addrs.end(); ++it) { config["ipAssignments"].push_back(*it); } } Metrics::member_count++; _memberChanged(empty, config, false); memberId = ""; networkId = ""; auto end = std::chrono::high_resolution_clock::now(); auto dur = std::chrono::duration_cast(end - start); total += dur.count(); ++count; if (count > 0 && count % 10000 == 0) { fprintf(stderr, "Averaging %llu us per member\n", (total/count)); } } if (count > 0) { fprintf(stderr, "Took %llu us per member to load\n", (total/count)); } stream.complete(); w.commit(); _pool->unborrow(c2); _pool->unborrow(c); fprintf(stderr, "done.\n"); if (!networkMembers.empty()) { if (_redisMemberStatus) { fprintf(stderr, "Load member data into redis...\n"); if (_rc->clusterMode) { auto tx = _cluster->transaction(_myAddressStr, true, false); uint64_t count = 0; for (auto it : networkMembers) { tx.sadd(it.first, it.second); if (++count % 30000 == 0) { tx.exec(); tx = _cluster->transaction(_myAddressStr, true, false); } } tx.exec(); } else { auto tx = _redis->transaction(true, false); uint64_t count = 0; for (auto it : networkMembers) { tx.sadd(it.first, it.second); if (++count % 30000 == 0) { tx.exec(); tx = _redis->transaction(true, false); } } tx.exec(); } fprintf(stderr, "done.\n"); } } fprintf(stderr, "Done loading members...\n"); if (++this->_ready == 2) { if (_waitNoticePrinted) { fprintf(stderr,"[%s] NOTICE: %.10llx controller PostgreSQL data download complete." ZT_EOL_S,_timestr(),(unsigned long long)_myAddress.toInt()); } _readyLock.unlock(); } } catch (sw::redis::Error &e) { fprintf(stderr, "ERROR: Error initializing members (redis): %s\n", e.what()); exit(-1); } catch (std::exception &e) { fprintf(stderr, "ERROR: Error initializing member: %s-%s %s\n", networkId.c_str(), memberId.c_str(), e.what()); exit(-1); } } void PostgreSQL::heartbeat() { char publicId[1024]; char hostnameTmp[1024]; _myId.toString(false,publicId); if (gethostname(hostnameTmp, sizeof(hostnameTmp))!= 0) { hostnameTmp[0] = (char)0; } else { for (int i = 0; i < (int)sizeof(hostnameTmp); ++i) { if ((hostnameTmp[i] == '.')||(hostnameTmp[i] == 0)) { hostnameTmp[i] = (char)0; break; } } } const char *controllerId = _myAddressStr.c_str(); const char *publicIdentity = publicId; const char *hostname = hostnameTmp; while (_run == 1) { // fprintf(stderr, "%s: heartbeat\n", controllerId); auto c = _pool->borrow(); int64_t ts = OSUtils::now(); if(c->c) { std::string major = std::to_string(ZEROTIER_ONE_VERSION_MAJOR); std::string minor = std::to_string(ZEROTIER_ONE_VERSION_MINOR); std::string rev = std::to_string(ZEROTIER_ONE_VERSION_REVISION); std::string build = std::to_string(ZEROTIER_ONE_VERSION_BUILD); std::string now = std::to_string(ts); std::string host_port = std::to_string(_listenPort); std::string use_redis = (_rc != NULL) ? "true" : "false"; std::string redis_mem_status = (_redisMemberStatus) ? "true" : "false"; try { pqxx::work w{*c->c}; pqxx::result res = w.exec0("INSERT INTO ztc_controller (id, cluster_host, last_alive, public_identity, v_major, v_minor, v_rev, v_build, host_port, use_redis, redis_member_status) " "VALUES ("+w.quote(controllerId)+", "+w.quote(hostname)+", TO_TIMESTAMP("+now+"::double precision/1000), "+ w.quote(publicIdentity)+", "+major+", "+minor+", "+rev+", "+build+", "+host_port+", "+use_redis+", "+redis_mem_status+") " "ON CONFLICT (id) DO UPDATE SET cluster_host = EXCLUDED.cluster_host, last_alive = EXCLUDED.last_alive, " "public_identity = EXCLUDED.public_identity, v_major = EXCLUDED.v_major, v_minor = EXCLUDED.v_minor, " "v_rev = EXCLUDED.v_rev, v_build = EXCLUDED.v_rev, host_port = EXCLUDED.host_port, " "use_redis = EXCLUDED.use_redis, redis_member_status = EXCLUDED.redis_member_status"); w.commit(); } catch (std::exception &e) { fprintf(stderr, "%s: Heartbeat update failed: %s\n", controllerId, e.what()); std::this_thread::sleep_for(std::chrono::milliseconds(1000)); continue; } } _pool->unborrow(c); try { if (_redisMemberStatus) { if (_rc->clusterMode) { _cluster->zadd("controllers", "controllerId", ts); } else { _redis->zadd("controllers", "controllerId", ts); } } } catch (sw::redis::Error &e) { fprintf(stderr, "ERROR: Redis error in heartbeat thread: %s\n", e.what()); } std::this_thread::sleep_for(std::chrono::milliseconds(1000)); } fprintf(stderr, "Exited heartbeat thread\n"); } void PostgreSQL::membersDbWatcher() { if (_rc) { _membersWatcher_Redis(); } else { _membersWatcher_Postgres(); } if (_run == 1) { fprintf(stderr, "ERROR: %s membersDbWatcher should still be running! Exiting Controller.\n", _myAddressStr.c_str()); exit(9); } fprintf(stderr, "Exited membersDbWatcher\n"); } void PostgreSQL::_membersWatcher_Postgres() { auto c = _pool->borrow(); std::string stream = "member_" + _myAddressStr; fprintf(stderr, "Listening to member stream: %s\n", stream.c_str()); MemberNotificationReceiver m(this, *c->c, stream); while(_run == 1) { c->c->await_notification(5, 0); } _pool->unborrow(c); } void PostgreSQL::_membersWatcher_Redis() { char buf[11] = {0}; std::string key = "member-stream:{" + std::string(_myAddress.toString(buf)) + "}"; std::string lastID = "0"; fprintf(stderr, "Listening to member stream: %s\n", key.c_str()); while (_run == 1) { try { json tmp; std::unordered_map result; if (_rc->clusterMode) { _cluster->xread(key, lastID, std::chrono::seconds(1), 0, std::inserter(result, result.end())); } else { _redis->xread(key, lastID, std::chrono::seconds(1), 0, std::inserter(result, result.end())); } if (!result.empty()) { for (auto element : result) { #ifdef REDIS_TRACE fprintf(stdout, "Received notification from: %s\n", element.first.c_str()); #endif for (auto rec : element.second) { std::string id = rec.first; auto attrs = rec.second; #ifdef REDIS_TRACE fprintf(stdout, "Record ID: %s\n", id.c_str()); fprintf(stdout, "attrs len: %lu\n", attrs.size()); #endif for (auto a : attrs) { #ifdef REDIS_TRACE fprintf(stdout, "key: %s\nvalue: %s\n", a.first.c_str(), a.second.c_str()); #endif try { tmp = json::parse(a.second); json &ov = tmp["old_val"]; json &nv = tmp["new_val"]; json oldConfig, newConfig; if (ov.is_object()) oldConfig = ov; if (nv.is_object()) newConfig = nv; if (oldConfig.is_object()||newConfig.is_object()) { _memberChanged(oldConfig,newConfig,(this->_ready >= 2)); } } catch (...) { fprintf(stderr, "json parse error in _membersWatcher_Redis: %s\n", a.second.c_str()); } } if (_rc->clusterMode) { _cluster->xdel(key, id); } else { _redis->xdel(key, id); } lastID = id; Metrics::redis_mem_notification++; } } } } catch (sw::redis::Error &e) { fprintf(stderr, "Error in Redis members watcher: %s\n", e.what()); } } fprintf(stderr, "membersWatcher ended\n"); } void PostgreSQL::networksDbWatcher() { if (_rc) { _networksWatcher_Redis(); } else { _networksWatcher_Postgres(); } if (_run == 1) { fprintf(stderr, "ERROR: %s networksDbWatcher should still be running! Exiting Controller.\n", _myAddressStr.c_str()); exit(8); } fprintf(stderr, "Exited networksDbWatcher\n"); } void PostgreSQL::_networksWatcher_Postgres() { std::string stream = "network_" + _myAddressStr; fprintf(stderr, "Listening to member stream: %s\n", stream.c_str()); auto c = _pool->borrow(); NetworkNotificationReceiver n(this, *c->c, stream); while(_run == 1) { c->c->await_notification(5,0); } } void PostgreSQL::_networksWatcher_Redis() { char buf[11] = {0}; std::string key = "network-stream:{" + std::string(_myAddress.toString(buf)) + "}"; std::string lastID = "0"; while (_run == 1) { try { json tmp; std::unordered_map result; if (_rc->clusterMode) { _cluster->xread(key, lastID, std::chrono::seconds(1), 0, std::inserter(result, result.end())); } else { _redis->xread(key, lastID, std::chrono::seconds(1), 0, std::inserter(result, result.end())); } if (!result.empty()) { for (auto element : result) { #ifdef REDIS_TRACE fprintf(stdout, "Received notification from: %s\n", element.first.c_str()); #endif for (auto rec : element.second) { std::string id = rec.first; auto attrs = rec.second; #ifdef REDIS_TRACE fprintf(stdout, "Record ID: %s\n", id.c_str()); fprintf(stdout, "attrs len: %lu\n", attrs.size()); #endif for (auto a : attrs) { #ifdef REDIS_TRACE fprintf(stdout, "key: %s\nvalue: %s\n", a.first.c_str(), a.second.c_str()); #endif try { tmp = json::parse(a.second); json &ov = tmp["old_val"]; json &nv = tmp["new_val"]; json oldConfig, newConfig; if (ov.is_object()) oldConfig = ov; if (nv.is_object()) newConfig = nv; if (oldConfig.is_object()||newConfig.is_object()) { _networkChanged(oldConfig,newConfig,(this->_ready >= 2)); } } catch (std::exception &e) { fprintf(stderr, "json parse error in networkWatcher_Redis: what: %s json: %s\n", e.what(), a.second.c_str()); } } if (_rc->clusterMode) { _cluster->xdel(key, id); } else { _redis->xdel(key, id); } lastID = id; } Metrics::redis_net_notification++; } } } catch (sw::redis::Error &e) { fprintf(stderr, "Error in Redis networks watcher: %s\n", e.what()); } } fprintf(stderr, "networksWatcher ended\n"); } void PostgreSQL::commitThread() { fprintf(stderr, "%s: commitThread start\n", _myAddressStr.c_str()); std::pair qitem; while(_commitQueue.get(qitem)&(_run == 1)) { //fprintf(stderr, "commitThread tick\n"); if (!qitem.first.is_object()) { fprintf(stderr, "not an object\n"); continue; } std::shared_ptr c; try { c = _pool->borrow(); } catch (std::exception &e) { fprintf(stderr, "ERROR: %s\n", e.what()); continue; } if (!c) { fprintf(stderr, "Error getting database connection\n"); continue; } Metrics::pgsql_commit_ticks++; try { nlohmann::json &config = (qitem.first); const std::string objtype = config["objtype"]; if (objtype == "member") { // fprintf(stderr, "%s: commitThread: member\n", _myAddressStr.c_str()); std::string memberId; std::string networkId; try { pqxx::work w(*c->c); memberId = config["id"]; networkId = config["nwid"]; std::string target = "NULL"; if (!config["remoteTraceTarget"].is_null()) { target = config["remoteTraceTarget"]; } pqxx::row nwrow = w.exec_params1("SELECT COUNT(id) FROM ztc_network WHERE id = $1", networkId); int nwcount = nwrow[0].as(); if (nwcount != 1) { fprintf(stderr, "network %s does not exist. skipping member upsert\n", networkId.c_str()); w.abort(); _pool->unborrow(c); continue; } pqxx::row mrow = w.exec_params1("SELECT COUNT(id) FROM ztc_member WHERE id = $1 AND network_id = $2", memberId, networkId); int membercount = mrow[0].as(); bool isNewMember = false; if (membercount == 0) { // new member isNewMember = true; pqxx::result res = w.exec_params0( "INSERT INTO ztc_member (id, network_id, active_bridge, authorized, capabilities, " "identity, last_authorized_time, last_deauthorized_time, no_auto_assign_ips, " "remote_trace_level, remote_trace_target, revision, tags, v_major, v_minor, v_rev, v_proto) " "VALUES ($1, $2, $3, $4, $5, $6, " "TO_TIMESTAMP($7::double precision/1000), TO_TIMESTAMP($8::double precision/1000), " "$9, $10, $11, $12, $13, $14, $15, $16, $17)", memberId, networkId, (bool)config["activeBridge"], (bool)config["authorized"], OSUtils::jsonDump(config["capabilities"], -1), OSUtils::jsonString(config["identity"], ""), (uint64_t)config["lastAuthorizedTime"], (uint64_t)config["lastDeauthorizedTime"], (bool)config["noAutoAssignIps"], (int)config["remoteTraceLevel"], target, (uint64_t)config["revision"], OSUtils::jsonDump(config["tags"], -1), (int)config["vMajor"], (int)config["vMinor"], (int)config["vRev"], (int)config["vProto"]); } else { // existing member pqxx::result res = w.exec_params0( "UPDATE ztc_member " "SET active_bridge = $3, authorized = $4, capabilities = $5, identity = $6, " "last_authorized_time = TO_TIMESTAMP($7::double precision/1000), " "last_deauthorized_time = TO_TIMESTAMP($8::double precision/1000), " "no_auto_assign_ips = $9, remote_trace_level = $10, remote_trace_target= $11, " "revision = $12, tags = $13, v_major = $14, v_minor = $15, v_rev = $16, v_proto = $17 " "WHERE id = $1 AND network_id = $2", memberId, networkId, (bool)config["activeBridge"], (bool)config["authorized"], OSUtils::jsonDump(config["capabilities"], -1), OSUtils::jsonString(config["identity"], ""), (uint64_t)config["lastAuthorizedTime"], (uint64_t)config["lastDeauthorizedTime"], (bool)config["noAutoAssignIps"], (int)config["remoteTraceLevel"], target, (uint64_t)config["revision"], OSUtils::jsonDump(config["tags"], -1), (int)config["vMajor"], (int)config["vMinor"], (int)config["vRev"], (int)config["vProto"] ); } if (!isNewMember) { pqxx::result res = w.exec_params0("DELETE FROM ztc_member_ip_assignment WHERE member_id = $1 AND network_id = $2", memberId, networkId); } std::vector assignments; bool ipAssignError = false; for (auto i = config["ipAssignments"].begin(); i != config["ipAssignments"].end(); ++i) { std::string addr = *i; if (std::find(assignments.begin(), assignments.end(), addr) != assignments.end()) { continue; } pqxx::result res = w.exec_params0( "INSERT INTO ztc_member_ip_assignment (member_id, network_id, address) VALUES ($1, $2, $3) ON CONFLICT (network_id, member_id, address) DO NOTHING", memberId, networkId, addr); assignments.push_back(addr); } if (ipAssignError) { fprintf(stderr, "%s: ipAssignError\n", _myAddressStr.c_str()); w.abort(); _pool->unborrow(c); c.reset(); continue; } w.commit(); if (_smee != NULL && isNewMember) { pqxx::row row = w.exec_params1( "SELECT " " count(h.hook_id) " "FROM " " ztc_hook h " " INNER JOIN ztc_org o ON o.org_id = h.org_id " " INNER JOIN ztc_network n ON n.owner_id = o.owner_id " " WHERE " "n.id = $1 ", networkId ); int64_t hookCount = row[0].as(); if (hookCount > 0) { notifyNewMember(networkId, memberId); } } const uint64_t nwidInt = OSUtils::jsonIntHex(config["nwid"], 0ULL); const uint64_t memberidInt = OSUtils::jsonIntHex(config["id"], 0ULL); if (nwidInt && memberidInt) { nlohmann::json nwOrig; nlohmann::json memOrig; nlohmann::json memNew(config); get(nwidInt, nwOrig, memberidInt, memOrig); _memberChanged(memOrig, memNew, qitem.second); } else { fprintf(stderr, "%s: Can't notify of change. Error parsing nwid or memberid: %llu-%llu\n", _myAddressStr.c_str(), (unsigned long long)nwidInt, (unsigned long long)memberidInt); } } catch (std::exception &e) { fprintf(stderr, "%s ERROR: Error updating member %s-%s: %s\n", _myAddressStr.c_str(), networkId.c_str(), memberId.c_str(), e.what()); } } else if (objtype == "network") { try { // fprintf(stderr, "%s: commitThread: network\n", _myAddressStr.c_str()); pqxx::work w(*c->c); std::string id = config["id"]; std::string remoteTraceTarget = ""; if(!config["remoteTraceTarget"].is_null()) { remoteTraceTarget = config["remoteTraceTarget"]; } std::string rulesSource = ""; if (config["rulesSource"].is_string()) { rulesSource = config["rulesSource"]; } // This ugly query exists because when we want to mirror networks to/from // another data store (e.g. FileDB or LFDB) it is possible to get a network // that doesn't exist in Central's database. This does an upsert and sets // the owner_id to the "first" global admin in the user DB if the record // did not previously exist. If the record already exists owner_id is left // unchanged, so owner_id should be left out of the update clause. pqxx::result res = w.exec_params0( "INSERT INTO ztc_network (id, creation_time, owner_id, controller_id, capabilities, enable_broadcast, " "last_modified, mtu, multicast_limit, name, private, " "remote_trace_level, remote_trace_target, rules, rules_source, " "tags, v4_assign_mode, v6_assign_mode, sso_enabled) VALUES (" "$1, TO_TIMESTAMP($5::double precision/1000), " "(SELECT user_id AS owner_id FROM ztc_global_permissions WHERE authorize = true AND del = true AND modify = true AND read = true LIMIT 1)," "$2, $3, $4, TO_TIMESTAMP($5::double precision/1000), " "$6, $7, $8, $9, $10, $11, $12, $13, $14, $15, $16, $17) " "ON CONFLICT (id) DO UPDATE set controller_id = EXCLUDED.controller_id, " "capabilities = EXCLUDED.capabilities, enable_broadcast = EXCLUDED.enable_broadcast, " "last_modified = EXCLUDED.last_modified, mtu = EXCLUDED.mtu, " "multicast_limit = EXCLUDED.multicast_limit, name = EXCLUDED.name, " "private = EXCLUDED.private, remote_trace_level = EXCLUDED.remote_trace_level, " "remote_trace_target = EXCLUDED.remote_trace_target, rules = EXCLUDED.rules, " "rules_source = EXCLUDED.rules_source, tags = EXCLUDED.tags, " "v4_assign_mode = EXCLUDED.v4_assign_mode, v6_assign_mode = EXCLUDED.v6_assign_mode, " "sso_enabled = EXCLUDED.sso_enabled", id, _myAddressStr, OSUtils::jsonDump(config["capabilities"], -1), (bool)config["enableBroadcast"], OSUtils::now(), (int)config["mtu"], (int)config["multicastLimit"], OSUtils::jsonString(config["name"],""), (bool)config["private"], (int)config["remoteTraceLevel"], remoteTraceTarget, OSUtils::jsonDump(config["rules"], -1), rulesSource, OSUtils::jsonDump(config["tags"], -1), OSUtils::jsonDump(config["v4AssignMode"],-1), OSUtils::jsonDump(config["v6AssignMode"], -1), OSUtils::jsonBool(config["ssoEnabled"], false)); res = w.exec_params0("DELETE FROM ztc_network_assignment_pool WHERE network_id = $1", 0); auto pool = config["ipAssignmentPools"]; bool err = false; for (auto i = pool.begin(); i != pool.end(); ++i) { std::string start = (*i)["ipRangeStart"]; std::string end = (*i)["ipRangeEnd"]; res = w.exec_params0( "INSERT INTO ztc_network_assignment_pool (network_id, ip_range_start, ip_range_end) " "VALUES ($1, $2, $3)", id, start, end); } res = w.exec_params0("DELETE FROM ztc_network_route WHERE network_id = $1", id); auto routes = config["routes"]; err = false; for (auto i = routes.begin(); i != routes.end(); ++i) { std::string t = (*i)["target"]; std::vector target; std::istringstream f(t); std::string s; while(std::getline(f, s, '/')) { target.push_back(s); } if (target.empty() || target.size() != 2) { continue; } std::string targetAddr = target[0]; std::string targetBits = target[1]; std::string via = "NULL"; if (!(*i)["via"].is_null()) { via = (*i)["via"]; } res = w.exec_params0("INSERT INTO ztc_network_route (network_id, address, bits, via) VALUES ($1, $2, $3, $4)", id, targetAddr, targetBits, (via == "NULL" ? NULL : via.c_str())); } if (err) { fprintf(stderr, "%s: route add error\n", _myAddressStr.c_str()); w.abort(); _pool->unborrow(c); continue; } auto dns = config["dns"]; std::string domain = dns["domain"]; std::stringstream servers; servers << "{"; for (auto j = dns["servers"].begin(); j < dns["servers"].end(); ++j) { servers << *j; if ( (j+1) != dns["servers"].end()) { servers << ","; } } servers << "}"; std::string s = servers.str(); res = w.exec_params0("INSERT INTO ztc_network_dns (network_id, domain, servers) VALUES ($1, $2, $3) ON CONFLICT (network_id) DO UPDATE SET domain = EXCLUDED.domain, servers = EXCLUDED.servers", id, domain, s); w.commit(); const uint64_t nwidInt = OSUtils::jsonIntHex(config["nwid"], 0ULL); if (nwidInt) { nlohmann::json nwOrig; nlohmann::json nwNew(config); get(nwidInt, nwOrig); _networkChanged(nwOrig, nwNew, qitem.second); } else { fprintf(stderr, "%s: Can't notify network changed: %llu\n", _myAddressStr.c_str(), (unsigned long long)nwidInt); } } catch (std::exception &e) { fprintf(stderr, "%s ERROR: Error updating network: %s\n", _myAddressStr.c_str(), e.what()); } if (_redisMemberStatus) { try { std::string id = config["id"]; std::string controllerId = _myAddressStr.c_str(); std::string key = "networks:{" + controllerId + "}"; if (_rc->clusterMode) { _cluster->sadd(key, id); } else { _redis->sadd(key, id); } } catch (sw::redis::Error &e) { fprintf(stderr, "ERROR: Error adding network to Redis: %s\n", e.what()); } } } else if (objtype == "_delete_network") { // fprintf(stderr, "%s: commitThread: delete network\n", _myAddressStr.c_str()); try { pqxx::work w(*c->c); std::string networkId = config["nwid"]; pqxx::result res = w.exec_params0("UPDATE ztc_network SET deleted = true WHERE id = $1", networkId); w.commit(); } catch (std::exception &e) { fprintf(stderr, "%s ERROR: Error deleting network: %s\n", _myAddressStr.c_str(), e.what()); } if (_redisMemberStatus) { try { std::string id = config["id"]; std::string controllerId = _myAddressStr.c_str(); std::string key = "networks:{" + controllerId + "}"; if (_rc->clusterMode) { _cluster->srem(key, id); _cluster->del("network-nodes-online:{"+controllerId+"}:"+id); } else { _redis->srem(key, id); _redis->del("network-nodes-online:{"+controllerId+"}:"+id); } } catch (sw::redis::Error &e) { fprintf(stderr, "ERROR: Error adding network to Redis: %s\n", e.what()); } } } else if (objtype == "_delete_member") { // fprintf(stderr, "%s commitThread: delete member\n", _myAddressStr.c_str()); try { pqxx::work w(*c->c); std::string memberId = config["id"]; std::string networkId = config["nwid"]; pqxx::result res = w.exec_params0( "UPDATE ztc_member SET hidden = true, deleted = true WHERE id = $1 AND network_id = $2", memberId, networkId); w.commit(); } catch (std::exception &e) { fprintf(stderr, "%s ERROR: Error deleting member: %s\n", _myAddressStr.c_str(), e.what()); } if (_redisMemberStatus) { try { std::string memberId = config["id"]; std::string networkId = config["nwid"]; std::string controllerId = _myAddressStr.c_str(); std::string key = "network-nodes-all:{" + controllerId + "}:" + networkId; if (_rc->clusterMode) { _cluster->srem(key, memberId); _cluster->del("member:{"+controllerId+"}:"+networkId+":"+memberId); } else { _redis->srem(key, memberId); _redis->del("member:{"+controllerId+"}:"+networkId+":"+memberId); } } catch (sw::redis::Error &e) { fprintf(stderr, "ERROR: Error deleting member from Redis: %s\n", e.what()); } } } else { fprintf(stderr, "%s ERROR: unknown objtype\n", _myAddressStr.c_str()); } } catch (std::exception &e) { fprintf(stderr, "%s ERROR: Error getting objtype: %s\n", _myAddressStr.c_str(), e.what()); } _pool->unborrow(c); c.reset(); } fprintf(stderr, "%s commitThread finished\n", _myAddressStr.c_str()); } void PostgreSQL::notifyNewMember(const std::string &networkID, const std::string &memberID) { smeeclient::smee_client_notify_network_joined( _smee, networkID.c_str(), memberID.c_str()); } void PostgreSQL::onlineNotificationThread() { waitForReady(); if (_redisMemberStatus) { onlineNotification_Redis(); } else { onlineNotification_Postgres(); } } /** * ONLY UNCOMMENT FOR TEMPORARY DB MAINTENANCE * * This define temporarily turns off writing to the member status table * so it can be reindexed when the indexes get too large. */ // #define DISABLE_MEMBER_STATUS 1 void PostgreSQL::onlineNotification_Postgres() { _connected = 1; nlohmann::json jtmp1, jtmp2; while (_run == 1) { auto c = _pool->borrow(); auto c2 = _pool->borrow(); try { fprintf(stderr, "%s onlineNotification_Postgres\n", _myAddressStr.c_str()); std::unordered_map< std::pair,std::pair,_PairHasher > lastOnline; { std::lock_guard l(_lastOnline_l); lastOnline.swap(_lastOnline); } #ifndef DISABLE_MEMBER_STATUS pqxx::work w(*c->c); pqxx::work w2(*c2->c); fprintf(stderr, "online notification tick\n"); bool firstRun = true; bool memberAdded = false; int updateCount = 0; pqxx::pipeline pipe(w); for (auto i=lastOnline.begin(); i != lastOnline.end(); ++i) { updateCount += 1; uint64_t nwid_i = i->first.first; char nwidTmp[64]; char memTmp[64]; char ipTmp[64]; OSUtils::ztsnprintf(nwidTmp,sizeof(nwidTmp), "%.16llx", nwid_i); OSUtils::ztsnprintf(memTmp,sizeof(memTmp), "%.10llx", i->first.second); if(!get(nwid_i, jtmp1, i->first.second, jtmp2)) { continue; // skip non existent networks/members } std::string networkId(nwidTmp); std::string memberId(memTmp); try { pqxx::row r = w2.exec_params1("SELECT id, network_id FROM ztc_member WHERE network_id = $1 AND id = $2", networkId, memberId); } catch (pqxx::unexpected_rows &e) { continue; } int64_t ts = i->second.first; std::string ipAddr = i->second.second.toIpString(ipTmp); std::string timestamp = std::to_string(ts); std::stringstream memberUpdate; memberUpdate << "INSERT INTO ztc_member_status (network_id, member_id, address, last_updated) VALUES " << "('" << networkId << "', '" << memberId << "', "; if (ipAddr.empty()) { memberUpdate << "NULL, "; } else { memberUpdate << "'" << ipAddr << "', "; } memberUpdate << "TO_TIMESTAMP(" << timestamp << "::double precision/1000)) " << " ON CONFLICT (network_id, member_id) DO UPDATE SET address = EXCLUDED.address, last_updated = EXCLUDED.last_updated"; pipe.insert(memberUpdate.str()); Metrics::pgsql_node_checkin++; } while(!pipe.empty()) { pipe.retrieve(); } pipe.complete(); w.commit(); fprintf(stderr, "%s: Updated online status of %d members\n", _myAddressStr.c_str(), updateCount); #endif } catch (std::exception &e) { fprintf(stderr, "%s: error in onlinenotification thread: %s\n", _myAddressStr.c_str(), e.what()); } _pool->unborrow(c2); _pool->unborrow(c); ConnectionPoolStats stats = _pool->get_stats(); fprintf(stderr, "%s pool stats: in use size: %llu, available size: %llu, total: %llu\n", _myAddressStr.c_str(), stats.borrowed_size, stats.pool_size, (stats.borrowed_size + stats.pool_size)); std::this_thread::sleep_for(std::chrono::seconds(10)); } fprintf(stderr, "%s: Fell out of run loop in onlineNotificationThread\n", _myAddressStr.c_str()); if (_run == 1) { fprintf(stderr, "ERROR: %s onlineNotificationThread should still be running! Exiting Controller.\n", _myAddressStr.c_str()); exit(6); } } void PostgreSQL::onlineNotification_Redis() { _connected = 1; char buf[11] = {0}; std::string controllerId = std::string(_myAddress.toString(buf)); while (_run == 1) { fprintf(stderr, "onlineNotification tick\n"); auto start = std::chrono::high_resolution_clock::now(); uint64_t count = 0; std::unordered_map< std::pair,std::pair,_PairHasher > lastOnline; { std::lock_guard l(_lastOnline_l); lastOnline.swap(_lastOnline); } try { if (!lastOnline.empty()) { if (_rc->clusterMode) { auto tx = _cluster->transaction(controllerId, true, false); count = _doRedisUpdate(tx, controllerId, lastOnline); } else { auto tx = _redis->transaction(true, false); count = _doRedisUpdate(tx, controllerId, lastOnline); } } } catch (sw::redis::Error &e) { fprintf(stderr, "Error in online notification thread (redis): %s\n", e.what()); } auto end = std::chrono::high_resolution_clock::now(); auto dur = std::chrono::duration_cast(end - start); auto total = dur.count(); fprintf(stderr, "onlineNotification ran in %llu ms\n", total); std::this_thread::sleep_for(std::chrono::seconds(5)); } } uint64_t PostgreSQL::_doRedisUpdate(sw::redis::Transaction &tx, std::string &controllerId, std::unordered_map< std::pair,std::pair,_PairHasher > &lastOnline) { nlohmann::json jtmp1, jtmp2; uint64_t count = 0; for (auto i=lastOnline.begin(); i != lastOnline.end(); ++i) { uint64_t nwid_i = i->first.first; uint64_t memberid_i = i->first.second; char nwidTmp[64]; char memTmp[64]; char ipTmp[64]; OSUtils::ztsnprintf(nwidTmp,sizeof(nwidTmp), "%.16llx", nwid_i); OSUtils::ztsnprintf(memTmp,sizeof(memTmp), "%.10llx", memberid_i); if (!get(nwid_i, jtmp1, memberid_i, jtmp2)){ continue; // skip non existent members/networks } std::string networkId(nwidTmp); std::string memberId(memTmp); int64_t ts = i->second.first; std::string ipAddr = i->second.second.toIpString(ipTmp); std::string timestamp = std::to_string(ts); std::unordered_map record = { {"id", memberId}, {"address", ipAddr}, {"last_updated", std::to_string(ts)} }; tx.zadd("nodes-online:{"+controllerId+"}", memberId, ts) .zadd("nodes-online2:{"+controllerId+"}", networkId+"-"+memberId, ts) .zadd("network-nodes-online:{"+controllerId+"}:"+networkId, memberId, ts) .zadd("active-networks:{"+controllerId+"}", networkId, ts) .sadd("network-nodes-all:{"+controllerId+"}:"+networkId, memberId) .hmset("member:{"+controllerId+"}:"+networkId+":"+memberId, record.begin(), record.end()); ++count; Metrics::redis_node_checkin++; } // expire records from all-nodes and network-nodes member list uint64_t expireOld = OSUtils::now() - 300000; tx.zremrangebyscore("nodes-online:{"+controllerId+"}", sw::redis::RightBoundedInterval(expireOld, sw::redis::BoundType::LEFT_OPEN)); tx.zremrangebyscore("nodes-online2:{"+controllerId+"}", sw::redis::RightBoundedInterval(expireOld, sw::redis::BoundType::LEFT_OPEN)); tx.zremrangebyscore("active-networks:{"+controllerId+"}", sw::redis::RightBoundedInterval(expireOld, sw::redis::BoundType::LEFT_OPEN)); { std::shared_lock l(_networks_l); for (const auto &it : _networks) { uint64_t nwid_i = it.first; char nwidTmp[64]; OSUtils::ztsnprintf(nwidTmp,sizeof(nwidTmp), "%.16llx", nwid_i); tx.zremrangebyscore("network-nodes-online:{"+controllerId+"}:"+nwidTmp, sw::redis::RightBoundedInterval(expireOld, sw::redis::BoundType::LEFT_OPEN)); } } tx.exec(); fprintf(stderr, "%s: Updated online status of %d members\n", _myAddressStr.c_str(), count); return count; } #endif //ZT_CONTROLLER_USE_LIBPQ